Add to ORKGThe self-assembly of heteroepitaxial quantum dots on ultrathin substrates is analyzed within the context of small perturbation theory. Analytical expressions are derived for the dependence of the quantum dot separation on the substrate thickness. It is shown that the substrate thickness is critical in determining this separation when it is below the intrinsic material length scale of the system. The model is extended to simultaneous dot growth on both sides of the substrate. It is shown that vertically anticorrelated structures are preferred with an increase in the dot separation of 15% above that found in the one-sided case
A new method is realized for the growth of self-formed quantum dots. We identify that dislocation-fr...
We have examined the influence of substrate surface orientation on self-assembled InAlAs/AlGaAs quan...
Self-organization of quantum dots (QDs) on an in situ cantilever setup is investigated using a conti...
© 2020 Elsevier B.V. Numerous theoretical and experimental studies show that during epitaxial growth...
A continuum model for the growth of self-assembled quantum dots that incorporates surface diffusion,...
Abstract. We have performed kinetic Monte Carlo simulations which explain the self-organized Stransk...
This article presents the results of three-dimensional modeling of heteroepitaxial thin film growth ...
It is a well known fact that strain-driven self-assembly via Stranski-Krastonov growth is a promisin...
A continuum model for the growth of self-assembled quantum dots that incorporates surface diffusion,...
Journal ArticleFrom observations of self-assembly of Ge quantum dots directed by substrate morpholog...
Epitaxial self-assembled quantum dots (SAQDs) result from Stranski-Krastanow growth whereby epitaxia...
A systematic study of the optical and microscopic properties of self-assembled quantum dots in InxGa...
Many theoretical and experimental investigations have been conducted to understand the growth mechan...
This thesis is based on results concerning the formation of semiconductor self-assembled quantum dot...
A systematic study of self-organized In0.5Ga0.5As quantum dots (QDs) and islands grown by molecular ...
A new method is realized for the growth of self-formed quantum dots. We identify that dislocation-fr...
We have examined the influence of substrate surface orientation on self-assembled InAlAs/AlGaAs quan...
Self-organization of quantum dots (QDs) on an in situ cantilever setup is investigated using a conti...
© 2020 Elsevier B.V. Numerous theoretical and experimental studies show that during epitaxial growth...
A continuum model for the growth of self-assembled quantum dots that incorporates surface diffusion,...
Abstract. We have performed kinetic Monte Carlo simulations which explain the self-organized Stransk...
This article presents the results of three-dimensional modeling of heteroepitaxial thin film growth ...
It is a well known fact that strain-driven self-assembly via Stranski-Krastonov growth is a promisin...
A continuum model for the growth of self-assembled quantum dots that incorporates surface diffusion,...
Journal ArticleFrom observations of self-assembly of Ge quantum dots directed by substrate morpholog...
Epitaxial self-assembled quantum dots (SAQDs) result from Stranski-Krastanow growth whereby epitaxia...
A systematic study of the optical and microscopic properties of self-assembled quantum dots in InxGa...
Many theoretical and experimental investigations have been conducted to understand the growth mechan...
This thesis is based on results concerning the formation of semiconductor self-assembled quantum dot...
A systematic study of self-organized In0.5Ga0.5As quantum dots (QDs) and islands grown by molecular ...
A new method is realized for the growth of self-formed quantum dots. We identify that dislocation-fr...
We have examined the influence of substrate surface orientation on self-assembled InAlAs/AlGaAs quan...
Self-organization of quantum dots (QDs) on an in situ cantilever setup is investigated using a conti...